RESUMO
Lithium-oxygen (Li-O2) batteries, renowned for their high theoretical energy density, have garnered significant interest as prime candidates for future electric device development. However, their actual capacity is often unsatisfactory due to the passivation of active sites by solid-phase discharge products. Optimizing the growth and storage of these products is a crucial step in advancing Li-O2 batteries. Here, a fluorine-doped bimetallic cobalt-nickel oxide (CoNiO2- xFx/CC) with an interlaced catalytic surface (ICS) and a corncob-like structure is proposed as an oxygen electrode. Unlike conventional oxide electrodes with a "single adsorption catalytic mechanism," the ICS of CoNiO2- xFx/CC offers a "competitive adsorption catalytic mechanism," where oxygen sites facilitate oxygen conversion while fluorine sites contribute to the growth of Li2O2. This results in a change in Li2O2 morphology from a surface film to toroidal particles, effectively preventing the burial of active sites. Additionally, the unique open architecture aids in the capture and release of oxygen and the formation of well-contacted Li2O2/electrode interfaces, which benefits the complete decomposition of Li2O2 products. Consequently, the Li-O2 battery with a CoNiO2- xFx/CC cathode demonstrates a high specific capacity of up to 30923 mAh g-1 and a lifespan exceeding 580 cycles, surpassing most reported metal oxide-based cathodes.
RESUMO
It is quite challenging to prepare subnanometer porous materials from traditional porous precursors, and use of supramolecules as carbon sources was seldom reported due to the complex preparation and purification processes. We explore a facile one-pot method to fabricate supramolecular coordination compounds as carbon sources. The resultant CB[6]-derived carbons (CBC) have a high N content of 7.0-22.0%, surface area of 552-861 m2 g-1, and subnano/mesopores. The CBC electrodes have a narrow size distribution at 5.9 Å, and the supercapacitor exhibits an energy density of 117.1 Wh kg-1 and a potential window of over 3.8 V in a two-electrode system in the ionic liquid (MMIMBF4) electrolyte with appropriate cationic (5.8 Å) and anionic (2.3 Å) diameter. This work presents the facile fabrication of novel supermolecule cucurbituril subnanoporous carbon materials and the smart design of "pores and balls" for high-performance energy storage systems.
RESUMO
OBJECTIVE: To investigate the effects of different intensity exercise combined with resveratrol on retinol binding protein 4(RBP4) mRNA and protein expression in visceral adipose tissue and plasma RBP4 concentration of aged obese rats. METHODS: Eighty male SD rats aged 3 weeks were randomly divided into the control group and the experimental group. Rats of the control group(C) were fed with ordinary feed of 6% fat (n=12). The experimental group consisted of 68 rats, which were fed with 36%~40% high fat feed in three stages. The rat model of elderly obesity was established successfully. Twenty-four obese rats were selected and randomly divided into 4 groups, including obese group (CO), resveratrol obese group (RO), low intensity exercise combined with resveratrol group (LRO) and moderate intensity exercise combined with resveratrol group (MRO). There were 6 rats in each group. The exercise intensities of the LRO group and MRO group were (12 m/min×15 min) and (15 m/min×15 min). Every day was exercised for 60 minutes. The rats in RO, LRO or MRO were treated with resveratrol at the dose of 52.5 mg/kg·d, while the rats in the control group were fed with the same amount of purified water, continued intervention for 8 weeks. After 8 weeks, samples of blood, adipose tissue of around the kidney, testicle, vessel and visceral were collected. Blood glucose and plasma RBP4 concentration were measured. Insulin sensitivity(ISI) was calculated. The expressions of RBP4 mRNA and protein were also determined. RESULTS: Compared with normal (C) group, the expressions of RBP4 mRNA and protein and plasma concentration and plasma glucose of the model (CO) group were increased obviously (P<0.05, P<0.01). ISI was decreased obviously (P<0.05). Compared with model (CO) group, the expressions of RBP4 mRNA and protein and plasma concentration and plasma glucose of the RO and LRO and MRO groups were decreased significantly(P<0.05, P<0.01), while ISI was increased markedly (P<0.05). Compared with the RO and LRO groups, the expressions of RBP4 mRNA and protein and plasma concentration and plasma glucose of the MRO group were decreased, while ISI was increased, but there was no significant difference. CONCLUSIONS: Different intensities exercise combined with resveratrol could reduce the RBP4 mRNA and protein expression in visceral adipose tissue and plasma RBP4 concentrations of aged obese rats, but less affected by exercise intensity.
